Semiconductor Nanostructures
(Sprache: Englisch)
Reducing the size of a coherently grown semiconductor cluster in all three directions of space to a value below the de Broglie wavelength of a charge carrier leads to complete quantization of the energy levels, density of states, etc. Such "quantum dots"...
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Reducing the size of a coherently grown semiconductor cluster in all three directions of space to a value below the de Broglie wavelength of a charge carrier leads to complete quantization of the energy levels, density of states, etc. Such "quantum dots" are more similar to giant atoms in a dielectric cage than to classical solids or semiconductors showing a dispersion of energy as a function of wavevector. Their electronic and optical properties depend strongly on their size and shape, i.e. on their geometry. By designing the geometry by controlling the growth of QDs, absolutely novel possibilities for material design leading to novel devices are opened.
This multiauthor book written by world-wide recognized leaders of their particular fields and edited by the recipient of the Max-Born Award and Medal 2006 Professor Dieter Bimberg reports on the state of the art of the growing of quantum dots, the theory of self-organised growth, the theory of electronic and excitonic states, optical properties and transport in a variety of materials. It covers the subject from the early work beginning of the 1990s up to 2006. The topics addressed in the book are the focus of research in all leading semiconductor and optoelectronic device laboratories of the world.
This multiauthor book written by world-wide recognized leaders of their particular fields and edited by the recipient of the Max-Born Award and Medal 2006 Professor Dieter Bimberg reports on the state of the art of the growing of quantum dots, the theory of self-organised growth, the theory of electronic and excitonic states, optical properties and transport in a variety of materials. It covers the subject from the early work beginning of the 1990s up to 2006. The topics addressed in the book are the focus of research in all leading semiconductor and optoelectronic device laboratories of the world.
Klappentext zu „Semiconductor Nanostructures “
Reducing the size of a coherently grown semiconductor cluster in all three directions of space to a value below the de Broglie wavelength of a charge carrier leads to complete quantization of the energy levels, density of states, etc. Such "quantum dots" are more similar to giant atoms in a dielectric cage than to classical solids or semiconductors showing a dispersion of energy as a function of wavevector. Their electronic and optical properties depend strongly on their size and shape, i.e. on their geometry. By designing the geometry by controlling the growth of QDs, absolutely novel possibilities for material design leading to novel devices are opened.This multiauthor book written by world-wide recognized leaders of their particular fields and edited by the recipient of the Max-Born Award and Medal 2006 Professor Dieter Bimberg reports on the state of the art of the growing of quantum dots, the theory of self-organised growth, the theory of electronic and excitonic states, optical properties and transport in a variety of materials. It covers the subject from the early work beginning of the 1990s up to 2006. The topics addressed in the book are the focus of research in all leading semiconductor and optoelectronic device laboratories of the world.
Inhaltsverzeichnis zu „Semiconductor Nanostructures “
1. Thermodynamics and Kinetics of Quantum Dot Growth2. Control of Self-Organized In(Ga)As/GaAs Quantum Dot Growth
3. In-situ Monitoring for Nano-Structure Growth in MOVPE
4. Bottom-up Approach for the Nanopatterning of Si(001)
5. Structural Characterisation of Quantum Dots by X-Ray Diffraction and TEM
6. The Atomic Structure of Quantum Dots
7. Theory of Excitons in Quantum Dots
8. Phonons in Quantum Dots and Their Role in Exciton Dephasing
9. Theory of the Optical Response of Single and Coupled Semiconductor Quantum Dots
10. Theory of Nonlinear Transport for Ensembles of Quantum Dots
11. Quantum Dots for Memories
13. Narrow-Gap Nanostructures in Strong Magnetic Fields
14. Optical Properties of III--V Quantum Dots
15. Ultrafast Coherent Spectroscopy of Single Semiconductor Quantum Dots
16. Single-Photon Generation from Single Quantum Dots
Bibliographische Angaben
- 2008, XXI, 357 Seiten, Maße: 16 x 24,1 cm, Gebunden, Englisch
- Herausgegeben: Dieter Bimberg
- Verlag: Springer, Berlin
- ISBN-10: 3540778985
- ISBN-13: 9783540778981
- Erscheinungsdatum: 18.06.2008
Sprache:
Englisch
Rezension zu „Semiconductor Nanostructures “
From the reviews:
Pressezitat
From the reviews: "This book focuses on the physics of quantum dots. It offers a very broad perspective, including growth of dots ... and various applications such as dots for electronic memory and single-photon generation. ... It is an overview where every chapter is ... self-contained entry written by a different set of authors. ... The editor ... has done an outstanding work in selecting the most important works on nanostructures coming from this center of excellence, and presenting them in a compact, well-illustrated and readable volume." (Jacques Tempere, Belgian Physical Society Magazine, Issue 2, June, 2009)
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